Leopoldo Raij

Kidney Disease as a Risk Factor for Development of Cardiovascular Disease A Statement From the American Heart Association Councils on Kidney in Cardiovascular Disease, High Blood Pressure Research, Clinical Cardiology, and Epidemiology and Prevention

Chronic kidney disease1 (CKD) is a worldwide public health problem. In the United States, there is a rising incidence and prevalence of kidney failure, with poor outcomes and high cost. The number of individuals with kidney failure treated by dialysis and transplantation exceeded 320 000 in 1998 and is expected to surpass 650 000 by 2010.1,2 There is an even higher prevalence of earlier stages of CKD (Table 1).1,3 Kidney failure requiring treatment with dialysis or transplantation is the most visible outcome of CKD. However, cardiovascular disease (CVD) is also frequently associated with CKD, which is important because individuals with CKD are more likely to die of CVD than to develop kidney failure,4 CVD in CKD is treatable and potentially preventable, and CKD appears to be a risk factor for CVD. In 1998, the National Kidney Foundation (NKF) Task Force on Cardiovascular Disease in Chronic Renal Disease issued a report emphasizing the high risk of CVD in CKD.5 This report showed that there was a high prevalence of CVD in CKD and that mortality due to CVD was 10 to 30 times higher in dialysis patients than in the general population (Figure 1 and Table 2).6–18 The task force recommended that patients with CKD be considered in the “highest risk group” for subsequent CVD events and that treatment recommendations based on CVD risk stratification should take into account the highest-risk status of patients with CKD. View this table: TABLE 1. Stages of CKD Figure 1. Cardiovascular mortality defined by death due to arrhythmias, cardiomyopathy, cardiac arrest, myocardial infarction, atherosclerotic heart disease, and pulmonary edema in general population (GP; National Center for Health Statistics [NCHS] multiple cause of mortality data files International Classification of Diseases, 9th Revision [ICD 9] codes 402, 404, 410 to 414, and …

Endogenously synthesized nitric oxide prevents endotoxin-induced glomerular thrombosis.

Escherichia coli endotoxin (LPS) can induce the clinical syndrome of septic shock and renal cortical necrosis and can stimulate nitric oxide (NO) production from macrophages, vascular smooth muscle, and glomerular mesangial cells in vitro. NO is an endogenous vasodilator, which also inhibits platelet aggregation and adhesion. We therefore sought to determine whether LPS would stimulate NO production in vivo and, if so, whether this NO would modulate endotoxin-induced glomerular thrombosis. The stable NO end-products, NO2 and NO3, were measured in serum and urine collections from rats during baseline and after injection of LPS, with or without substances that modulate NO synthesis. The urinary excretion of NO2/NO3 was 1,964 +/- 311 nm/8 h during the baseline and increased to 6,833 +/- 776 nm/8 h after a single intraperitoneal injection of 0.1 mg/kg LPS (P < 0.05). The serum concentration of NO2/NO3 also significantly increased after LPS injection. Both the urine and serum stimulation was significantly prevented by the NO synthesis inhibitor, Nw-nitro-L-arginine methyl ester (L-NAME). L-Arginine, given with LPS+L-NAME significantly restored the NO2/NO3 levels in the urine. Ex vivo incubation of tissues from rats treated with LPS demonstrated NO production by the aorta, whole kidney, and glomeruli, but not cortical tubules. Histological examination of kidneys from rats given either LPS or L-NAME alone revealed that 2 and 4.5% of the glomeruli contained capillary thrombosis, respectively. In contrast, rats given LPS+L-NAME developed thrombosis in 55% of glomeruli (P < 0.001), which was significantly prevented when L-arginine was given concomitantly. We conclude that LPS stimulates endogenous production of NO in vivo and that this NO is critical in preventing LPS-induced renal thrombosis.

Design and Implementation of the Hispanic Community Health Study/Study of Latinos

PURPOSE The Hispanic Community Health Study (HCHS)/Study of Latinos (SOL) is a comprehensive multicenter community based cohort study of Hispanics/Latinos in the United States. METHODS The Study rationale, objectives, design, and implementation are described in this report. RESULTS The HCHS/SOL will recruit 16,000 men and women who self-identify as Hispanic or Latino, 18 to 74 years of age, from a random sample of households in defined communities in the Bronx, Chicago, Miami, and San Diego. The sites were selected so that the overall sample would consist of at least 2000 persons in each of the following origin designations: Mexican, Puerto Rican and Dominican, Cuban, and Central and South American. The study includes research in the prevalence of and risk factors for heart, lung, blood and sleep disorders, kidney and liver function, diabetes, cognitive function, dental conditions, and hearing disorders. CONCLUSIONS The HCHS/SOL will (1) characterize the health status and disease burden in the largest minority population in the United States; (2) describe the positive and negative consequences of immigration and acculturation of Hispanics/Latinos to the mainstream United States life-styles, environment and health care opportunities; and (3) identify likely causal factors of many diseases in a population with diverse environmental exposures, genetic backgrounds, and early life experiences.

Cardiovascular Risk Factors in Chronic Renal Failure and Hemodialysis Populations

Cardiovascular disease is the leading cause of death in patients with end-stage renal disease (ESRD). Risk factors for cardiovascular disease, including hypertension, lipid abnormalities, left ventricular hypertrophy (LVH), and glucose intolerance, are present more frequently in patients with chronic renal failure than in the general population, even before the onset of replacement therapy. The prevalence, pathogenesis, and significance of these factors in the uremic population are examined, and the potential roles of intervention are reviewed. Evidence suggests, but is not conclusive, that these factors are of predictive value for cardiovascular complications in patients with chronic renal failure. The effect of modification of these factors on cardiovascular morbidity and mortality in this population, especially in the early stages of renal failure, is an important area for further study.

Recurrence of idiopathic nephrotic syndrome after renal transplantation.

Abstract Three patients with steroid-resistant idiopathic nephrotic syndrome were studied at onset and during recurrent nephrotic syndrome after renal transplantation. Renal biopsies at the onset of the nephrotic syndrome showed typical features of the idiopathic nephrotic syndrome; no or minimal focal glomerular abnormalities were present by light microscopy and glomerular-basement-oriented deposits were not demonstrated by immunofluorescent or electron microscopy. Progression to renal failure occurred in 2, 2, and 6 years. Recurrence of nephrotic syndrome was noted 1, 11/2, and 5 months after transplantation. Renal biopsies done 11/2, 5, and 7 months after transplantation when proteinuria was 12·8, 7·6, and 8·5 g. per 24 hours, respectively, showed minimal or no glomerular abnormalities by light microscopy. Immunofluorescent and electron microscopic studies revealed no evidence suggesting immunological injury. Subsequent kidney specimens after transplantation obtained from two of these patients with recurrent nephrotic syndrome showed focal segmental glomerulosclerosis limited primarily to the juxtamedullary glomeruli—a feature further suggesting recurrence of the original disease in the transplanted kidney. These observations suggest that the pathogenesis of the steroid-resistant idiopathic nephrotic syndrome may involve systemic circulating factors; this hypothesis would account for development of a recurrent nephrotic syndrome in the transplanted kidney.

Hypoxic pulmonary vasoconstriction is enhanced by inhibition of the synthesis of an endothelium derived relaxing factor

Inhibition of the synthesis of endothelium derived relaxing factor by NG-monomethyl-L-arginine, a competitive inhibitor of the synthesis of nitric oxide from L-arginine, enhances hypoxic pulmonary vasoconstriction in pulmonary artery rings and isolated, Krebs albumin perfused rat lungs. L-arginine rapidly reduces hypoxic vasoconstriction, particularly in lungs treated with NG-monomethyl-L-arginine. Following administration of NG-monomethyl-L-arginine, bradykinin-induced vasodilatation is inhibited (p less than 0.01) and a bradykinin-induced vasoconstriction develops (p less than 0.001). NG-monomethyl-L-arginine does not significantly diminish acetylcholine-induced vasodilatation in the isolated lung. NG-monomethyl-L-arginine causes an endothelium-dependent vasoconstriction in pulmonary artery rings.

Stable Compounds of Cigarette Smoke Induce Endothelial Superoxide Anion Production via NADPH Oxidase Activation

Objective—Endothelial dysfunction is an early manifestation of cigarette smoke (CS) toxicity. We have previously demonstrated that CS impairs nitric oxide (NO)-mediated endothelial function via increased generation of superoxide anion (SYMBOL). In these studies, we investigated whether stable compounds present in CS activate specific pathways responsible for the increased endothelial SYMBOL production. Methods and Results—Short exposure of bovine pulmonary artery endothelial cells (BPAECs), human pulmonary artery endothelial cells, and rat pulmonary arteries to CS extracts (CSEs) resulted in a large increase in SYMBOL production (20-fold, 3-fold, and 2-fold increase, respectively; P< 0.05 versus control), which was inhibited by the nicotinamide adenine dinucleotide phosphate (NADPH) oxidase inhibitors diphenyleneiodinium, apocynin, and gp91 docking sequencetat peptide but not by oxypurinol, the NO synthase inhibitor NG-nitro-L-arginine methyl ester, or the mitochondrial respiration inhibitor rotenone. Exposure of BPAECs to acrolein, a stable thiol-reactive agent found in CS, increased SYMBOL production 5-fold, which was prevented by prior inhibition of NADPH oxidase. Conclusions—These studies demonstrate that thiol-reactive stable compounds in CS can activate NADPH oxidase and increase endothelial SYMBOL production, thereby reducing NO bioactivity and resulting in endothelial dysfunction. Clinically, these studies may contribute to the development of agents able to mitigate CS-mediated vascular toxicity.

The Link Among Nitric Oxide Synthase Activity, Endothelial Function, and Aortic and Ventricular Hypertrophy in Hypertension

The adaptive changes that occur in the left ventricle (LV) and vessels in response to hypertension, namely, muscle hypertrophy/hyperplasia, endothelial dysfunction, and extracellular matrix increase, do not depend solely on blood pressure elevation. These changes are in fact, maladaptive since they are forerunners of cardiac failure, stroke, and renal failure. Nitric oxide, an endogenous vasodilator and inhibitor of vascular smooth muscle cell growth, is synthesized in the endothelium by constitutive nitric oxide synthase (cNOS). We investigated the relationships among LV and aortic cNOS activity (conversion of [14C] L-arginine to [14C] L-citrulline), with LV hypertrophy (LV weight/body weight), and (2) aortic hypertrophy (aortic weight/ length) in spontaneously hypertensive rats (SHR) and Dahl salt-sensitive (DS) rats matched for blood pressure (219 +/- 12 versus 211 +/- 7 mm Hg, P = NS) and age. Compared with their normotensive counterparts, aortic cNOS activity was increased 106% in SHR but reduced by 73% in DS rats. The correlation between blood pressure and aortic cNOS activity was positive (r = .74, P < .01) in SHR and negative (r = -.82, P < .01) in DS rats, LV cNOS activity was increased 73% in SHR compared with normotensive Wistar-Kyoto rats (P < .01). On the other hand, LV cNOS activity was not increased in hypertensive DS rats compared with normotensive DS rats. In SHR, aortic hypertrophy did not increase significantly and LV hypertrophy increased only 15%, whereas in hypertensive DS rats the aorta and LV hypertrophied 36% and 88%, respectively (both P < .01). Moreover, in DS rats there was a negative correlation between cNOS activity and aortic hypertrophy (r = -.70, P < .01). In DS rats, antihypertensive therapy consisting of an angiotensin-converting enzyme inhibitor, perindopril, and a diuretic, indapamide, normalized blood pressure, aortic cNOS activity, and LV hypertrophy and reduced aortic hypertrophy. Our studies imply that upregulation of vascular cNOS activity has a protective cardiovascular homeostatic role in hypertension. Clinically, the variable end-organ disease observed in individuals with similar severity of hypertension may be explained, at least in part, by genetically conditioned differences in vascular cNOS activity in response to hypertension.

Cigarette smoke-induced endothelium dysfunction: role of superoxide anion.

Objectives Cigarette smoking is strongly associated with coronary artery disease and atherosclerosis. While smoking has been shown to impair endothelium-dependent vasorelaxation, the mechanisms involved are not completely understood. We investigated the role of superoxide anion and vasoconstricting prostanoids in cigarette smoke induced endothelial dysfunction. Methods Endothelial function was assessed in rat aortic rings exposed to cigarette smoke-treated Krebs buffer, by measuring agonist stimulated endothelium-dependent vasorelaxation. Treatment with superoxide dismutase (SOD) as well as ifetroban, thromboxane A2/prostaglandin endoperoxide H2 (TxA2/PGH2) receptor blocker and indomethacin (cyclooxygenase inhibitor) was used to investigate the role of superoxide anion and vasoconstricting eicosanoids on cigarette smoke-induced endothelial dysfunction. The effect of cigarette smoke on endothelial nitric oxide synthase (eNOS) catalytic activity was measured by conversion of l-arginine to l-citrulline in rat aortas and rat endothelial cell homogenates supplemented with eNOS cofactors. Results Relaxations to receptor-dependent agonists, acetylcholine and adenosine diphosphate (ADP), as well as to a receptor-independent agonist, A23187 (Ca2+ ionophore) were significantly impaired by cigarette smoke. Cigarette smoke did not impair relaxations to sodium nitroprusside, indicating preserved guanylate cyclase activity. Further, cigarette smoke did not affect eNOS catalytic activity in homogenates from either endothelial cells or aortas previously exposed to cigarette-smoke-treated Krebs buffer. Treatment with SOD or ifetroban and in a lesser degree by indomethacin prevented cigarette-smoke-induced endothelial dysfunction. Conclusions Taken together, our results suggest that cigarette smoking causes an increase in vascular superoxide production which results in decreased nitric oxide (NO) bioactivity and concomitantly increases production of cyclooxygenase dependent and independent vasoconstricting eicosanoids.

Endothelial Dysfunction and Cardiorenal Injury in Experimental Salt-Sensitive Hypertension Effects of Antihypertensive Therapy

BACKGROUND Pharmacological control of hypertension has contributed to a significant decrease in cardiovascular morbidity and mortality, although the beneficial effect on cardiac and renal diseases has been far more modest than the reduction in stroke. The endothelium plays a crucial homeostatic role in the regulation of vascular tone thrombogenesis and vascular remodeling. We studied the relationship between endothelial dysfunction and cardiorenal injury in hypertensive rats and evaluated the effects of two classes of antihypertensive agents commonly used in the clinical setting, a diuretic (DIU) and an ACE inhibitor (CEI). METHODS AND RESULTS Dahl salt-sensitive rats (DS) given high dietary salt (4% NaCl) developed hypertension (systolic blood pressure [SBP], 218+/-9 versus 147+/-3 mm Hg in DS given 0.5% NaCl; P<.001), which was associated with impaired endothelium-dependent relaxations (EDRs) in aortic rings (ED50, 5.44+/-.18 versus 7.51+/-.10; P<.05) and mesenteric vessels (area under the curve, 299+/-11 versus 217+/-11 arbitrary units; P<.05). Hypertensive DS also demonstrated depressed nitric oxide synthase activity in the aorta (0.76+/-.15 versus 2.83+/-.17 nmol x min(-1) x g protein(-1); P<.05), left ventricular hypertrophy (0.43+/-.02 versus 0.29+/-.02 g ventricular weight/100 g body weight; P<.05), glomerular injury (histological injury score: 151+/-8 versus 11+/-2; P<.05), and increased urinary protein excretion (95+/-21 versus 25+/-5 mg/24 hours; P<.05). Treatment of DS rats with the CEI perindopril (4.56 mg x kg(-1) x d(-1)) did not affect SBP (225+/-6 mm Hg) but modestly improved EDR (ED50: 6.07+/-.37; P<.05 versus hypertensive DS) as well as proteinuria and glomerular histology. Addition of the DIU indapamide (1.44 mg x kg(-1) x d(-1)) normalized SBP (151+/-2 mm Hg; P<.05), EDR (ED50, 7.33+/-.08; P<.05), left ventricular hypertrophy (0.27+/-.01 g/100 g body weight; P<.05), and proteinuria (31+/-4 mg/24 hours; P<.05) and prevented glomerular injury (injury score: 30+/-2; P<.05). Monotherapy with DIU reduced SBP (175+/-3 mm Hg; P<.05) and normalized EDR and left ventricular hypertrophy but did not provide effective renal protection. In hypertensive DS, impaired EDR and left ventricular hypertrophy were positively correlated with SBP. In addition, we found a significant correlation between cardiac hypertrophy and endothelial dysfunction. Indeed, a hierarchical regression analysis revealed that impaired aortic EDR, and therefore decreased aortic compliance, positively contributed to left ventricular hypertrophy in addition to but independently of SBP [F(2,37)=6.29; P=.004]. CONCLUSIONS These studies suggest a dissociation of the endothelial, cardiac, and renal effects of antihypertensive therapy in hypertension and may explain the variable success of antihypertensive regimens in treating hypertension while preventing cardiac and renal damage.